International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
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Volume 93 - Issue 14 |
Published: May 2014 |
Authors: Amninder Singh, Kulwinder Singh |
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Amninder Singh, Kulwinder Singh . Investigate the Performance of QAM Communication System by Transforming Linear Phase Filter Design using Parks-Mcclellan Algorithm into Minimum Phase Filter. International Journal of Computer Applications. 93, 14 (May 2014), 38-42. DOI=10.5120/16285-6091
@article{ 10.5120/16285-6091, author = { Amninder Singh,Kulwinder Singh }, title = { Investigate the Performance of QAM Communication System by Transforming Linear Phase Filter Design using Parks-Mcclellan Algorithm into Minimum Phase Filter }, journal = { International Journal of Computer Applications }, year = { 2014 }, volume = { 93 }, number = { 14 }, pages = { 38-42 }, doi = { 10.5120/16285-6091 }, publisher = { Foundation of Computer Science (FCS), NY, USA } }
%0 Journal Article %D 2014 %A Amninder Singh %A Kulwinder Singh %T Investigate the Performance of QAM Communication System by Transforming Linear Phase Filter Design using Parks-Mcclellan Algorithm into Minimum Phase Filter%T %J International Journal of Computer Applications %V 93 %N 14 %P 38-42 %R 10.5120/16285-6091 %I Foundation of Computer Science (FCS), NY, USA
In this paper, the design of a low-pass minimum phase equiripple finite impulse response (FIR) digital filter from the given low-pass linear phase equiripple. The initial linear phase transfer function is obtained by standard Parks-Mcclellan algorithm. The shorter group delay should be minimal for efficient performance of digital pulse shaping filter like it improves the performance parameters like increased Capacity, reduced BER, better S/N ratio, and Reduced ISI (noise). The small group delay minimum phase filter coefficients were subjected to QAM (32, 64, and 128) system. The minimum phase filter performed well in terms of bit error rate (BER) parameter.